水平变化波导中的简正波耦合与能量转移

莫亚枭; 朴胜春; 张海刚; 李丽

doi:10.7498/aps.63.214302

摘要

针对海底地形水平变化对声场能量传播和声场干涉结构的影响,对简正波之间的耦合和能量转移进行了研究. 建立了一种二维大步长格式的耦合简正波模型和三维楔形波导耦合简正波模型,以便快速有效地分析简正波之间的耦合和能量转移. 基于耦合简正波模型,阐述了前向声场能量在水平变化波导中传播时的转移过程. 并根据射线简正波理论,解释了海底地形变化对声场能量分布的影响机理. 水平变化波导中声场的仿真计算表明,当本征值虚部发生剧烈变化时声场存在着较强的简正波耦合和能量转移,且海底地形变化将导致声场能量的水平传播方向偏转至海水深度增加的方向. 在声场能量转移和传播方向变化中,声场的能量趋于保留在波导中而不向海底泄漏. 同时,声场能量分布受到类似于压缩或稀疏的作用,从而形成椭圆状的干涉结构.

关键词:

Abstract

The mode coupling and energy transfer are studied by considering the influences of variation in topography on sound energy transmission and structures of interference in a range-dependent waveguide. A larger level-stepped coupled mode model and a three-dimensional coupled mode model for the wedge bottom are obtained such that the mode coupling and energy transfer may be analyzed efficiently and rapidly. According to the coupled mode models, the transfer of energy is expounded for the forward pressure field in the waveguide with varying topography. Meanwhile, the mechanism is explained by the ray-mode theory for variation of energy distribution caused by variation of topography. Numerical simulations show that the coupling between normal modes and the energy transfer may occur remarkably when the imaginary parts of eigenvalues take on a huge modification, and the propagation direction of sound field will be changed to the increasing direction of sea depth due to variation of topography. In the energy transfer and the modification of propagation direction, the energy of sound field tends to remain in the waveguide, rather than to leak to the seafloor. Meanwhile, the energy distribution will be affected by the compression or sparseness so that interference structures such as ellipse, will be produced.

Keywords:

作者及机构信息

1.
哈尔滨工程大学, 水声技术重点实验室, 哈尔滨 150001;

2.
哈尔滨工程大学, 水声工程学院, 哈尔滨 150001

基金项目: 国防科技重点实验室基金(批准号:9140C200103120C2001)和国家自然科学基金重点项目(批准号:11234002)资助的课题.

Authors and contacts

1.
Acoustic Science and Technology Laboratory, Harbin Engineering University, Harbin 150001, China;

2.
College of Underwater Acoustic Engineering, Harbin Engineering University, Harbin 150001, China

Funds: Project supported by the Science and Technology Foundation of State Key Laboratory, China (Grant No. 9140C200103120C2001), and the National Natural Science Foundation of China (Grant No. 11234002).

参考文献

[1]	Jensen F B, Kuperman W A, Porter M B, Schmidt H 2011 Computational Ocean Acoustics (2nd Ed.) (New York: Springer)
[2]	Wang D Z, Shang E C 2013 Underwater Acoustics (2nd Ed) (Beijing: Science Press) p59 (in Chinese) [王德昭, 尚尔昌2013水声学(第二版) (北京: 科学出版社)第59页]
[3]	Lin W S, Liang G L, Fu J, Zhang G P 2013 Acta. Phys. Sin. 62 144301 (in Chinese) [林旺生, 梁国龙, 付进, 张光普 2013 物理学报 62 144301]
[4]	Pierce A D 1965 J. Acoust. Soc. Am. 37 19
[5]	Milder D M 1969 J. Acoust. Soc. Am. 46 1259
[6]	Abawi A T, Kuperman W A, Collins M D 1997 J. Acoust. Soc. Am. 102 233
[7]	Peng Z H, Li F H 2001 Sci. Cina. Ser A 31 165 (in Chinese) [彭朝晖, 李风华2001中国科学A辑 31 165]
[8]	Peng Z H, Zhang R H 2005 Acta Acustica. 30 97 (in Chinese) [彭朝晖, 张仁和2005声学学报 30 97]
[9]	Stotts S A 2008 J. Com. Acoust. 16 225
[10]	Evans R B 1983 J. Acoust. Soc. Am. 74 188
[11]	Luo W Y 2012 Sci. Cina-Phys. Mech. Astron. 55 572
[12]	Yang C M, Luo W Y 2012 Acta Acustica. 37 465 (in Chinese) [杨春梅, 骆文于2012声学学报 37 465]
[13]	Luo W Y, Yang C M, Qin J X, Zhang R H 2013 Chin. Phys. B 22 054301
[14]	Yang C M, Luo W Y, Zhang R H, Qin J X 2013 Acta. Phys. Sin. 62 094302 (in Chinese) [杨春梅, 骆文于, 张仁和, 秦继兴 2013 物理学报 62 094302]
[15]	Luo W Y, Yang C M, Zhang R H 2012 Chin. Phys. Lett. 29 014302
[16]	Qin J X, Luo W Y, Zhang R H, Yang C M 2013 Chin. Phys. Lett. 30 074301
[17]	Luo W Y, Schmidt H 2009 J. Acoust. Soc. Am. 125 52
[18]	Luo W Y 2011 Sci. Cina-Phys. Mech. Astron. 54 1562
[19]	Fawcett J A 1992 J. Acoust. Soc. Am. 92 290
[20]	Godin O A 1998 J. Acoust. Soc. Am. 103 159
[21]	Wang N 2004 J. Ocean. Univ. China 34 821 (in Chinese) [王宁2004中国海洋大学学报 34 821]
[22]	McDonald B E, Collins M D, Kuperman W A, Heaney K D 1994 J. Acoust. Soc. Am. 96 2357
[23]	Ballard M S 2012 J. Acoust. Soc. Am. 131 2578
[24]	Ballard M S 2012 J. Acoust. Soc. Am. 131 1969
[25]	Collins M D 1993 J. Acoust. Soc. Am. 94 975
[26]	Lamb H 1904 Phil. Trans. R. Soc. Lond. 203 1

施引文献

[1]	Jensen F B, Kuperman W A, Porter M B, Schmidt H 2011 Computational Ocean Acoustics (2nd Ed.) (New York: Springer)
[2]	Wang D Z, Shang E C 2013 Underwater Acoustics (2nd Ed) (Beijing: Science Press) p59 (in Chinese) [王德昭, 尚尔昌2013水声学(第二版) (北京: 科学出版社)第59页]
[3]	Lin W S, Liang G L, Fu J, Zhang G P 2013 Acta. Phys. Sin. 62 144301 (in Chinese) [林旺生, 梁国龙, 付进, 张光普 2013 物理学报 62 144301]
[4]	Pierce A D 1965 J. Acoust. Soc. Am. 37 19
[5]	Milder D M 1969 J. Acoust. Soc. Am. 46 1259
[6]	Abawi A T, Kuperman W A, Collins M D 1997 J. Acoust. Soc. Am. 102 233
[7]	Peng Z H, Li F H 2001 Sci. Cina. Ser A 31 165 (in Chinese) [彭朝晖, 李风华2001中国科学A辑 31 165]
[8]	Peng Z H, Zhang R H 2005 Acta Acustica. 30 97 (in Chinese) [彭朝晖, 张仁和2005声学学报 30 97]
[9]	Stotts S A 2008 J. Com. Acoust. 16 225
[10]	Evans R B 1983 J. Acoust. Soc. Am. 74 188
[11]	Luo W Y 2012 Sci. Cina-Phys. Mech. Astron. 55 572
[12]	Yang C M, Luo W Y 2012 Acta Acustica. 37 465 (in Chinese) [杨春梅, 骆文于2012声学学报 37 465]
[13]	Luo W Y, Yang C M, Qin J X, Zhang R H 2013 Chin. Phys. B 22 054301
[14]	Yang C M, Luo W Y, Zhang R H, Qin J X 2013 Acta. Phys. Sin. 62 094302 (in Chinese) [杨春梅, 骆文于, 张仁和, 秦继兴 2013 物理学报 62 094302]
[15]	Luo W Y, Yang C M, Zhang R H 2012 Chin. Phys. Lett. 29 014302
[16]	Qin J X, Luo W Y, Zhang R H, Yang C M 2013 Chin. Phys. Lett. 30 074301
[17]	Luo W Y, Schmidt H 2009 J. Acoust. Soc. Am. 125 52
[18]	Luo W Y 2011 Sci. Cina-Phys. Mech. Astron. 54 1562
[19]	Fawcett J A 1992 J. Acoust. Soc. Am. 92 290
[20]	Godin O A 1998 J. Acoust. Soc. Am. 103 159
[21]	Wang N 2004 J. Ocean. Univ. China 34 821 (in Chinese) [王宁2004中国海洋大学学报 34 821]
[22]	McDonald B E, Collins M D, Kuperman W A, Heaney K D 1994 J. Acoust. Soc. Am. 96 2357
[23]	Ballard M S 2012 J. Acoust. Soc. Am. 131 2578
[24]	Ballard M S 2012 J. Acoust. Soc. Am. 131 1969
[25]	Collins M D 1993 J. Acoust. Soc. Am. 94 975
[26]	Lamb H 1904 Phil. Trans. R. Soc. Lond. 203 1

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